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Online since: July 2015
Authors: Heng Hua Zhang, Rui Wang, Ling Qi Meng
Experimental Procedure
Materials and LPSSDC Forming.
Journal of materials processing technology, 2009, 209(2): 1060-1073
Journal of materials processing technology, 2009, 209(2): 1060-1073
Materials Science and Engineering: A, 2007, 464(1): 295-305
Advanced Materials Research. 2014, 936: 1791-1795
Journal of materials processing technology, 2009, 209(2): 1060-1073
Journal of materials processing technology, 2009, 209(2): 1060-1073
Materials Science and Engineering: A, 2007, 464(1): 295-305
Advanced Materials Research. 2014, 936: 1791-1795
Online since: November 2013
Authors: Shui Xuan Chen, Yeni Li, Jun Zou
Palomar Pardave: International Journal of Minerals, Metallurgy and Materials.
Vol. 17(2010), p. 403 [2] Yu-TuoZhang, Dian-Zhong Li, Yi-Yi Li: Journal of Materials Processing Technology.
Vol. 171(2006), p. 175 [3] Heung Nam Han, Jae Kon Lee, Hong Joon Kim, Young-Sool Jin: Journal of Materials Processing Technology.
Fattahi: Journal of Materials Processing Technology.
Vol. 47(2010), p. 1159 [8] Heung Nam Han, Jae Kon Lee, Hong Joon Kim, Young-Sool Jin: Journal of Materials Processing Technology.
Vol. 17(2010), p. 403 [2] Yu-TuoZhang, Dian-Zhong Li, Yi-Yi Li: Journal of Materials Processing Technology.
Vol. 171(2006), p. 175 [3] Heung Nam Han, Jae Kon Lee, Hong Joon Kim, Young-Sool Jin: Journal of Materials Processing Technology.
Fattahi: Journal of Materials Processing Technology.
Vol. 47(2010), p. 1159 [8] Heung Nam Han, Jae Kon Lee, Hong Joon Kim, Young-Sool Jin: Journal of Materials Processing Technology.
Online since: October 2012
Authors: Yong You, Jin Feng Liu, Yan Bo Zhao
Lv and et al: Journal of Disaster Prevention and Mitigation Engineering Vol. 23 (2003), p. 50-55
[3] Y.
Liu: Journal of Catastrophology Vol. 26 (2011), p. 68-72 [4] B.
Wu: Journal of Engineering Geology Vol. 18 (2010), p. 827-836 [5] Y.
Chen: Journal of Disaster Prevention and Mitigation Engineering Vol. 25 (2005), p. 146-151 [6] L.Y Wen, G.
KANG and et al: Debris Flow and Its Comprehensive Control (Science Press, China 1993)
Liu: Journal of Catastrophology Vol. 26 (2011), p. 68-72 [4] B.
Wu: Journal of Engineering Geology Vol. 18 (2010), p. 827-836 [5] Y.
Chen: Journal of Disaster Prevention and Mitigation Engineering Vol. 25 (2005), p. 146-151 [6] L.Y Wen, G.
KANG and et al: Debris Flow and Its Comprehensive Control (Science Press, China 1993)
Online since: January 2019
Authors: Li Hong Han, Peng Wang, Guang Xi Liu, Shang Yu Yang
Experimental Analysis on Mechanical Properties of Perforated Casing in Complex Fracturing
Lihong Han1,2,3,a, Guangxi Liu4, Shangyu Yang1,2,3* and Peng Wang1,2,3
1State key Laboratory for Performance and Structure Safety of Petroleum Tubular Goods and Equipment Materials, CNPC Tubular Goods Research Institute, Xi’an, Shaanxi 710077 China
2Shaanxi key Laboratory for Performance and Structure Safety of Petroleum Tubular Goods and Equipment Materials, Xi’an, Shaanxi 710077, China
3Key Laboratory of Petroleum Tubular Goods Engineering, CNPC, Xi’an, Shaanxi 710077 China
4CNPC Xinjiang oilfield heavy oil production company, Karamay, Xinjiang 834000, China.
Numerical investigation for different casing deformation reasons in Weiyuan-Changning shale gas field during multistage hydraulic fracturing[J].Journal of Petroleum Science and Engineering, 2018, 49:331-341
Investigation of casing deformation during hydraulic fracturing in high geo-stress shale gas play[J].Journal of Petroleum Science and Engineering, 2017, 150:22-29
[12] Yin Fei, Han Lihong, Yang Shangyu, et al.Casing deformation from fracture slip in hydraulic fracturing[J].Journal of Petroleum Science and Engineering, 2018, 166:235-241
Journal of Petroleum Science and Engineering, 2018, 168:32-38.
Numerical investigation for different casing deformation reasons in Weiyuan-Changning shale gas field during multistage hydraulic fracturing[J].Journal of Petroleum Science and Engineering, 2018, 49:331-341
Investigation of casing deformation during hydraulic fracturing in high geo-stress shale gas play[J].Journal of Petroleum Science and Engineering, 2017, 150:22-29
[12] Yin Fei, Han Lihong, Yang Shangyu, et al.Casing deformation from fracture slip in hydraulic fracturing[J].Journal of Petroleum Science and Engineering, 2018, 166:235-241
Journal of Petroleum Science and Engineering, 2018, 168:32-38.
Online since: January 2017
Authors: Feng Bin Liu, Hong Juan Yan, Qin Xue Pan
And the method is only used to detect magnetic materials.
Experiment Experimental Materials The materials of specimens are 2024 aluminum alloy with yield strength of 265 MPa and hardness of 37.8 HRB.
Materials and Design, 2013, 50: 905-916
Applied Mechanics and Materials,2014, 156:156-162
Properties of GH4169 Superalloy Characterized by Nonlinear Ultrasonic Waves[J], Advances in Materials Science and Engineering, 2015, 457384:1-9
Experiment Experimental Materials The materials of specimens are 2024 aluminum alloy with yield strength of 265 MPa and hardness of 37.8 HRB.
Materials and Design, 2013, 50: 905-916
Applied Mechanics and Materials,2014, 156:156-162
Properties of GH4169 Superalloy Characterized by Nonlinear Ultrasonic Waves[J], Advances in Materials Science and Engineering, 2015, 457384:1-9
Online since: March 2011
Authors: Yi Li, Xin Lei Li, Shang Kun Ren
So the residual life of materials can be gained by calculating the D value.
Acknowledgements This research was supported by National Science Fund (51065024) and Jiangxi Province Educational Office Science Fund (GJJ10511) References [1] D.
Stupakov: Journal of Magnetism and Magnetic Materials, Vol. 310(2007), p.57 [7] M.Roskosz, P.Gawrilenko: NDT&E International, Vol. 41(2008),41, p.570 [8] E.Yang, L.
Li: Journal of Magnetism and Magnetic Materials, Vol.312(2007), p.72 [9] L.
Wang: Key Engineering Materials, Vol. 324(2006), p.619.
Acknowledgements This research was supported by National Science Fund (51065024) and Jiangxi Province Educational Office Science Fund (GJJ10511) References [1] D.
Stupakov: Journal of Magnetism and Magnetic Materials, Vol. 310(2007), p.57 [7] M.Roskosz, P.Gawrilenko: NDT&E International, Vol. 41(2008),41, p.570 [8] E.Yang, L.
Li: Journal of Magnetism and Magnetic Materials, Vol.312(2007), p.72 [9] L.
Wang: Key Engineering Materials, Vol. 324(2006), p.619.
Online since: July 2011
Authors: Kun Qiao, Bo Zhu, Xiang Yu Yin, Cheng Rui Di, Xiao Dong Gao, Wei Zhao
(1)
2 Experimental
2.1 Materials
AF used in this study was produced in Korea, which belongs to poly(p-phenylene terephthalamide) fiber, usually abbreviated to PPTA.
Low concentration of NaOH solution, such as NaOH solution with density of 10%, was fit to modify AF. 5 Acknowledgment The authors gratefully acknowledge the helps from Carbon Fiber Technology Research Center School of Materials Science and Engineering of Shandong University. 6 References [1] P.J.de Lange, E.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
Low concentration of NaOH solution, such as NaOH solution with density of 10%, was fit to modify AF. 5 Acknowledgment The authors gratefully acknowledge the helps from Carbon Fiber Technology Research Center School of Materials Science and Engineering of Shandong University. 6 References [1] P.J.de Lange, E.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
Online since: December 2012
Authors: Hong Tao Hu
And high pure graphite electrode materials were used to avoid the entry of new pollutants.
1.2 Materials and reagents
The electrolysis tank was filled by the original soil sample which was eliminated plant rhizome, thick chipping, break stone and etc., and was fully aired, crushed and dried at 105℃.
[8] Zhou Dongmei, Cang Long:China Environmental Science,vol.25(2005),p.10-14 (in Chinese)
[13] Ding Sa, Luo Yatian:Wuyi Science Journal,vol.23(2007), p.53-57 (in Chinese)
Tech, 29(1995) (8): 1913-1922 [20] Westerhoff P: Journal of Environ.
Tech, 1998, 32(1998) (8): 2308-2316 [23] Hu Hongtao:Journal of Agro-Environment Science, vol.25(2006), p. 661-664 (in Chinese).
[8] Zhou Dongmei, Cang Long:China Environmental Science,vol.25(2005),p.10-14 (in Chinese)
[13] Ding Sa, Luo Yatian:Wuyi Science Journal,vol.23(2007), p.53-57 (in Chinese)
Tech, 29(1995) (8): 1913-1922 [20] Westerhoff P: Journal of Environ.
Tech, 1998, 32(1998) (8): 2308-2316 [23] Hu Hongtao:Journal of Agro-Environment Science, vol.25(2006), p. 661-664 (in Chinese).
Online since: October 2011
Authors: Bijan Mollaei Dariani, Sina Eskandari
.,” Sheet-Forming Process Characterization by Static-Explicit Anisotropic Elastic-Plastic Finite-Element Simulation”, Journal of Materials Processing Technology, 50 116 32 (1995).
] predicted FLDs by means of FEM along with S-R Storen - rice
model.
Takuda et al. [[] Takuda.H, "Finite element analysis of limit strains in biaxial stretching of sheet metals allowing for ductile fracture", International Journal of Mechanical Sciences 42 785-798 (2000). ] extracted FLDs by combination of FEM and ductile fracture criterion which has a good agreement with experiments.
H., Lirani J., Al-Qureshi H.A., ”Implementing a modified Marciniak-Kuczynski model using the finite element method for the simulation of sheet metal deep drawing”, Journal of Materials Processing Technology, 130-13,1135-144 ( 2002). ] utilized M-K Marciniak-Kuczynski theory to predict FLD numerically which had about 11% error in comparison with experiment.
Instability is defined based on Eq.3 [[] B M Dariani; H D Azodi “Finding the optimum Hill index in the determination of the forming limit diagram” ProQuest Science Journals pg. 1677 217 12 (2003)
M., ”dynamic analysis instability of sheet metal under biaxial stretching”, Amirkabir journal of science & technology,18(67-B), 31-39.(2007). ] Fig. 7 (a) reveals variation of critical strain by increasing of strain rate.
Takuda et al. [[] Takuda.H, "Finite element analysis of limit strains in biaxial stretching of sheet metals allowing for ductile fracture", International Journal of Mechanical Sciences 42 785-798 (2000). ] extracted FLDs by combination of FEM and ductile fracture criterion which has a good agreement with experiments.
H., Lirani J., Al-Qureshi H.A., ”Implementing a modified Marciniak-Kuczynski model using the finite element method for the simulation of sheet metal deep drawing”, Journal of Materials Processing Technology, 130-13,1135-144 ( 2002). ] utilized M-K Marciniak-Kuczynski theory to predict FLD numerically which had about 11% error in comparison with experiment.
Instability is defined based on Eq.3 [[] B M Dariani; H D Azodi “Finding the optimum Hill index in the determination of the forming limit diagram” ProQuest Science Journals pg. 1677 217 12 (2003)
M., ”dynamic analysis instability of sheet metal under biaxial stretching”, Amirkabir journal of science & technology,18(67-B), 31-39.(2007). ] Fig. 7 (a) reveals variation of critical strain by increasing of strain rate.
Online since: January 2014
Authors: Mei Li Qi, Xiu Juan Zhao, Yan Tao Wang, Peng Tao Liu
Materials Science and Engineering, 2002(A326):20
Journal of Materials Science Letters, 1994(13):1506
Journal of Bearing , 2001. (8): 28 to 30
Chengdu: Sichuan Science and Technology Press, 1987
Journal of Henan Professional Technician Institute, 1996, 24 (2): 50
Journal of Materials Science Letters, 1994(13):1506
Journal of Bearing , 2001. (8): 28 to 30
Chengdu: Sichuan Science and Technology Press, 1987
Journal of Henan Professional Technician Institute, 1996, 24 (2): 50